/*
   Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; version 2 of the License.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301  USA
*/

#ifndef ConfigInfo_H
#define ConfigInfo_H

#ifndef NDB_MGMAPI
#include <kernel_types.h>
#include <Properties.hpp>
#include <ndb_limits.h>
#include <NdbOut.hpp>
#include "InitConfigFileParser.hpp"
#endif /* NDB_MGMAPI */

// Parameter must be specified in config file
#define MANDATORY ((char*)~(UintPtr)0)

/**
 * @class  ConfigInfo
 * @brief  Metainformation about ALL cluster configuration parameters 
 *
 * Use the getters to find out metainformation about parameters.
 */
class ConfigInfo {
public:
  enum Type        { CI_BOOL,
                     CI_INT,
                     CI_INT64,
                     CI_STRING,
                     CI_ENUM, // String externaly, int internally
                     CI_BITMASK, // String both externally and internally
                     CI_SECTION
  };
  enum Status      { CI_USED,            ///< Active
                     CI_EXPERIMENTAL,    ///< Active but experimental
                     CI_DEPRECATED,      ///< Can be used, but shouldn't
                     CI_NOTIMPLEMENTED,  ///< Is ignored.
                     CI_INTERNAL         ///< Not configurable by the user
  };

  enum Flags {
    CI_ONLINE_UPDATEABLE  = 1, // Parameter can be updated online
    CI_CHECK_WRITABLE = 2, // Path given by parameter should be writable

    /*
      Flags  telling how the system must be restarted for a changed
      parameter to take effect

      Default is none of these flags set, which means node restart
      of one node at a time for the setting to take effect

      CS_RESTART_INITIAL
      Each data node need to be restarted one at a time with --initial

      CS_RESTART_SYSTEM
      The whole system need to be stopped and then started up again

      CS_RESTART_SYSTEM + CS_RESTART_INITIAL
      The whole system need to be stopped and then restarted with --initial
      thus destroying any data in the cluster

      These flags can not be combined with CI_ONLINE_UPDATABLE flag which
      indicates that the parameter can be changed online without
      restarting anything
    */
    CI_RESTART_SYSTEM = 4, // System restart is necessary to apply setting
    CI_RESTART_INITIAL = 8 // Initial restart is necessary to apply setting
  };

  struct Typelib {
    const char* name;
    Uint32 value;
  };

  /**
   *   Entry for one configuration parameter
   */
  struct ParamInfo {
    /**
     * Internal id used to identify configuration parameter when accessing
     * config.
     */
    Uint32         _paramId;
    /* External name, as given in text in config file. */
    const char*    _fname;   
    /**
     * Name (as it appears in config file text) of section that this extry
     * belongs to.
     *
     * Each section alsa has one entry with the section name stored in both
     * _fname and _section.
     */
    const char*    _section;
    /* Short textual description/documentation for entry. */
    const char*    _description;
    Status         _status;
    Uint32         _flags;
    Type           _type;          
    /**
     * Default value, minimum value (if any), and maximum value (if any).
     *
     * Stored as pointers to char * representation of default (eg "10k").
     *
     * For section entries, instead the _default member gives the internal id
     * of that kind of section (CONNECTION_TYPE_TCP, NODE_TYPE_MGM, etc.)
     */
    const char*  _default;
    const char* _min;
    const char* _max;
  };

  /**
   * section type is stored in _default
   */
  static Uint32 getSectionType(const ParamInfo& p) {
    assert(p._type == CI_SECTION);
    return Uint32(reinterpret_cast<UintPtr>(p._default));
  }

  /**
   * typelib ptr is stored in _min
   */
  static const Typelib* getTypelibPtr(const ParamInfo& p) {
    assert(p._type == CI_ENUM);
    return reinterpret_cast<const Typelib*>(p._min);
  }

  class ParamInfoIter {
    const ConfigInfo& m_info;
    const char* m_section_name;
    int m_curr_param;
  public:
    ParamInfoIter(const ConfigInfo& info,
                  Uint32 section,
                  Uint32 section_type = ~0);

    const ParamInfo* next(void);
  };

#ifndef NDB_MGMAPI
  struct AliasPair{
    const char * name;
    const char * alias;
  };

  /**
   * Entry for one section rule
   */
  struct SectionRule {
    const char * m_section;
    bool (* m_sectionRule)(struct InitConfigFileParser::Context &, 
			   const char * m_ruleData);
    const char * m_ruleData;
  };
  
  /**
   * Entry for config rule
   */
  struct ConfigRuleSection {
    BaseString m_sectionType;
    Properties * m_sectionData;
  };

  struct ConfigRule {
    bool (* m_configRule)(Vector<ConfigRuleSection>&, 
			  struct InitConfigFileParser::Context &, 
			  const char * m_ruleData);
    const char * m_ruleData;
  };
  
  ConfigInfo();

  /**
   *   Checks if the suggested value is valid for the suggested parameter
   *   (i.e. if it is >= than min and <= than max).
   *
   *   @param  section  Init Config file section name
   *   @param  fname    Name of parameter
   *   @param  value    Value to check
   *   @return true if parameter value is valid.
   * 
   *   @note Result is not defined if section/name are wrong!
   */
  bool verify(const Properties* secti, const char* fname, Uint64 value) const;
  bool verify_enum(const Properties * section, const char* fname,
                   const char* value, Uint32& value_int) const;
  void get_enum_values(const Properties * section, const char* fname,
                       BaseString& err) const;
  static const char* nameToAlias(const char*);
  static const char* getAlias(const char*);
  bool isSection(const char*) const;

  const char*  getDescription(const Properties * sec, const char* fname) const;
  Type         getType(const Properties * section, const char* fname) const;
  Status       getStatus(const Properties* section, const char* fname) const;
  Uint64       getMin(const Properties * section, const char* fname) const;
  Uint64       getMax(const Properties * section, const char* fname) const;
  Uint64 getDefault(const Properties * section, const char* fname) const;
  Uint32 getFlags(const Properties* section, const char* fname) const;
  const char* getDefaultString(const Properties * section,
                               const char* fname) const;
  bool getMandatory(const Properties * section, const char* fname) const;
  bool hasDefault(const Properties * section, const char* fname) const;

  const Properties * getInfo(const char * section) const;
  const Properties * getDefaults(const char * section) const;

  const char* sectionName(Uint32 section_type, Uint32 type) const;

  void print(const char* section= NULL) const;
  void print_xml(const char* section= NULL) const;
private:
  bool is_internal_section(const Properties* sec) const;
  void print_impl(const char* section,
                  class ConfigPrinter& printer) const;
private:
  Properties               m_info;
  Properties               m_systemDefaults;

  static const AliasPair   m_sectionNameAliases[];
  static const char*       m_sectionNames[];
  static const int         m_noOfSectionNames;
#endif /* NDB_MGMAPI */

public:
  static const ParamInfo   m_ParamInfo[];
  static const int         m_NoOfParams;
  
#ifndef NDB_MGMAPI
  static const SectionRule m_SectionRules[];
  static const ConfigRule  m_ConfigRules[];
  static const int         m_NoOfRules;
#endif /* NDB_MGMAPI */
};

#endif // ConfigInfo_H
